Nitrogen-recycling
Guides
Coptotermes
Coptotermes is a genus of subterranean termites in the family Rhinotermitidae, containing approximately 71 described species. The genus is thought to have originated in Southeast Asia and includes some of the world's most economically destructive termite pests, notably Coptotermes formosanus (Formosan subterranean termite) and C. gestroi (Asian subterranean termite). A 2013 consensus among 31 termite experts reduced the number of validated species from 69 to 21 based on morphological and molecular evidence, with many historical names suspected to be synonyms. Species in this genus exhibit complex social behaviors including age-based task division and unique nitrogen recycling strategies.
termitepestinvasivestructural-pestsubterraneanRhinotermitidaeHeterotermitidaeeconomic-pesturban-entomologycolonysocial-insectmoltingnitrogen-recyclingexuviaeage-polyethismFormosan-subterranean-termiteAsian-subterranean-termiteSoutheast-Asia-originwood-feedingcellulosegut-protozoalower-termiteevolutionary-transitiontunnelingforagingtrophallaxisproctodeal-trophallaxiscarton-nestAhamitermesparasitechitin-synthesis-inhibitorCSI-baitmolting-site-fidelityinvasive-speciesurban-peststructural-damagequarantineshippingrailroad-tiesmulchHawaiiFloridaLouisianaTaiwanJapanChinaPhilippinesAustraliatemperature-limitationhumidity-requirementcolony-sizeseveral-millionalatesswarmingnematode-associationvertical-transfermorphological-plasticitymolecular-identificationmitochondrial-DNACOII12S-rRNA16S-rRNAconsortium-taxonomytaxonomic-cold-casesynonymyWasmann-1896Coptotermes formosanus
Formosan subterranean termite
Coptotermes formosanus, the Formosan subterranean termite, is a highly destructive invasive termite species native to southern China and Taiwan. It has spread worldwide through human transport, particularly via shipping, and is now established in the southern United States, Hawaii, Japan, and other regions. Colonies can contain millions of individuals with foraging ranges up to 100 meters. The species exhibits complex social behaviors including age-based task division, central nest molting, and nitrogen recycling through exuviae consumption.