A nectar‐secreting gall wasp and ant mutualism: selection and counter‐selection shaping gall wasp phenology, fecundity and persistence
Abstract
Abstract.
- 1
The natural history of a gall wasp including interactions with inquilines, parasites, and a mutualistic ant are examined. The stability of the system is described from the perspective of influences on gall wasp life history characteristics.
- 2
An exclusion experiment demonstrated that the nectar‐secreting gall of Disholcaspis perniciosa mediates a mutualism with the tending ant, Formica obscuripes. Survivorship increased from 0% in the absence of ants to 25.3% in their presence, largely due to the exclusion of inquilines.
- 3
Specialized parasites, Eudecatoma spp., attacked before the ant‐gall interaction began, when the developing gall was still beneath the host plant (Quercus gambellii) epidermis and ants were not in attendance. They may select for later developing gall wasps, which benefit by having fewer individuals parasitized. However, counter‐selection for earlier development may result from decreased gall wasp size, decreased fecundity, and an increase in gall failures resulting from late development.
- 4
Local persistence of the gall wasp population despite increased pressure from inquilines and parasites was attributed to gall wasp escape in time due to polymorphic emergence resulting from diapause. Most individuals emerge at the end of the summer, but approximately 15% remain in the galls as prepupae for 1–5 years.
Number of times cited: 8
- Adriana Aranda-Rickert, Carolina Rothen, Patricia Diez, Ana María González and Brigitte Marazzi, Sugary secretions of wasp galls: a want-to-be extrafloral nectar?, Annals of Botany, 120, 5, (765), (2017).
- Marcílio Fagundes, Frederico S. Neves and G. Wilson Fernandes, Direct and indirect interactions involving ants, insect herbivores, parasitoids, and the host plant Baccharis dracunculifolia (Asteraceae), Ecological Entomology, 30, 1, (28-35), (2005).
- Brian D. Inouye and Anurag A. Agrawal, Ant mutualists alter the composition and attack rate of the parasitoid community for the gall wasp Disholcaspis eldoradensis (Cynipidae), Ecological Entomology, 29, 6, (692-696), (2004).
- Graham N. Stone and Karsten Schönrogge, The adaptive significance of insect gall morphology, Trends in Ecology & Evolution, 18, 10, (512), (2003).
- M. de S., Jr. MENDONÇA and H. P. ROMANOWSKI, Natural enemies of the gall-maker Eugeniamyia dispar (Diptera, Cecidomyiidae): predatory ants and parasitoids, Brazilian Journal of Biology, 62, 2, (269), (2002).
- Graham N. Stone, Karsten Schönrogge, Rachel J. Atkinson, David Bellido and Juli Pujade-Villar, THEPOPULATIONBIOLOGY OFOAKGALLWASPS(HYMENOPTERA: CYNIPIDAE), Annual Review of Entomology, 47, 1, (633), (2002).
- Dilek Sanver and Bradford A. Hawkins, Galls as habitats: the inquiline communities of insect galls, Basic and Applied Ecology, 1, 1, (3), (2000).
- G. W. Fernandes, M. Fagundes, R. L. Woodman and P. W. Price, Ant effects on three‐trophic level interactions: plant, galls, and parasitoids, Ecological Entomology, 24, 4, (411-415), (2001).
