Disease and colony establishment in the dampwood termite Zootermopsis angusticollis:: survival and fitness consequences of infection in primary reproductives

Pathogens have likely influenced life-history evolution in social insects because their nesting ecology and sociality can exacerbate the risk of disease transmission and place demands on the immune system that ultimately can impact colony survival and growth. The costs of the maintenance and induction of immune function may be particularly significant in termites, which have a nitrogen-poor diet. We examined the effect of fungal exposure on survival and reproduction during colony foundation in the dampwood termite Zootermopsis angusticollis by experimentally pairing male and female primary reproductives and exposing them to single ('acute') and multiple ('serial') dosages of conidia of the fungus Metarhizium anisopliae and recording their survival and fitness over a 560 day period. The number of eggs laid 70 days post-pairing was significantly reduced relative to controls in the serial-exposure but not the acute-exposure treatment. Reproduction thus appeared to be more resilient to a single pathogen exposure than to serial challenge to the immune system. The impact of fungal exposure was transient: all surviving colonies had similar reproductive output after 300 days post-pairing. Our results suggest that disease can have significant survival and fitness costs during the critical phase of colony foundation but that infection at this time may not necessarily impact long-term colony growth.