Host propagation permits extreme local adaptation in a social parasite of ants

The Red Data Book hoverfly species Microdon mutabilis is an extreme specialist that parasitises ant societies. The flies are locally adapted to a single host, Formica lemani, more intimately than was thought possible in host-parasite systems. Microdon egg survival plummeted in F. lemani colonies >...

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Bibliographic Details
Published in:Ecology letters 2006-09, Vol.9 (9), p.1032-1040
Main Authors: Schönrogge, K, Gardner, M.G, Elmes, G.W, Napper, E.K.V, Simcox, D.J, Wardlaw, J.C, Breen, J, Barr, B, Knapp, J.J, Pickett, J.A, Thomas, J.A
Format: Article
Language:English
Subjects:
Adaptation, Physiological
Animals
Ants - parasitology
Diptera - genetics
Diptera - pathogenicity
Female
Genetics, Population
Genotype
Host-parasite interaction
Host-Parasite Interactions
insect conservation
Larva
local adaptation
Male
manipulation of ant reproduction
Microdon mutabilis
Population Dynamics
Reproduction
reproductive skew
Social Behavior
social parasites
Survival Analysis
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Summary:The Red Data Book hoverfly species Microdon mutabilis is an extreme specialist that parasitises ant societies. The flies are locally adapted to a single host, Formica lemani, more intimately than was thought possible in host-parasite systems. Microdon egg survival plummeted in F. lemani colonies > 3 km away from the natal nest, from c. 96% to 0% to < 50%, depending on the hoverfly population. This is reflected in the life-time dispersal of females, measured at < 2 m, resulting in oviposition back into the same ant nests for generation after generation. To counter destabilizing effects on the host, Microdon manipulates the social dynamics of F. lemani by feeding selectively on ant eggs and small larvae, which causes surviving larvae to switch development into queens. Infested colonies rear double the number of new queens, thus propagating the vulnerable local genotype and compensating for damage to the host colonies. The consequences of such extreme host specificity for insect conservation are discussed.
ISSN:1461-023X
1461-0248
DOI:10.1111/j.1461-0248.2006.00957.x