Avoidance mechanisms of three Pieris butterfly species against the parasitoid wasp Apanteles glomerulus |
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Authors: | NAOTA OHSAKI YOSHIBUMI SATO† |
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Institution: | Entomological Laboratory, Faculty of Agriculture;*Department of Zoology, Faculty of Science, Kyoto University, Sakyo, Kyoto 606, Japan |
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Abstract: | Abstract. 1. Experimental studies have shown that larvae of three Pieris butterflies, P.rapae L., P.melete Mènètriés and P.napi L., are attacked by a parasitoid wasp, Apanteles glomeratus L. Although P.rapae larvae are parasitized heavily in the field, P.melete and P.napi are infrequently parasitized successfully because they possess mechanisms for encapsulating parasitoid larvae and for avoiding parasitism. 2. This study examines spatial and temporal variation in rates of parasitism of the three Pieris species by A.glomeratus in the field. We attempted to determine whether P.rapae possesses any means of avoiding parasitism by this wasp, and then to deduce why both P.melete and P.napi have more distinctive avoidance mechanisms than P.rapae. 3. Our results indicate that in temporary habitats, which are the main habitats of P.rapae, P.rapae is able to escape A.glomeratus in time and space by colonizing new habitats before the parasitoid arrives. In permanent habitats, however, such escape is not possible. P.rapae larvae lack physiological or behavioural avoidance mechanisms of reducing parasitism rates in permanent habitats. P.melete and P.napi , in contrast, live only in permanent habitats, where the parasitic pressure is potentially high, and have evolved active avoidance mechanisms. |
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Keywords: | Key words Rate of parasitism avoiding parasitism defence mechanism temporary habitat permanent habitat |
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