ISSN:
1570-7458
Keywords:
surface waxes
;
plant waxes
;
predation
;
tritrophic interactions
;
Plutella xylostella
;
adhesion
;
attachment
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract Predation by Chrysoperla plorabunda (Fitch) (Chrysopidae) first instars on Plutella xylostella (L.) (Plutellidae) neonates was measured on nine Brassica oleracea L. types with different surface wax crystal morphology. Forty-eight-hour survival of P. xylostella caged on leaves was significantly reduced by C. plorabunda on plants expressing ‘glossy’ mutations that reduce surface waxbloom, but not on plants with normal waxbloom. During 5-min observations, C. plorabunda spent more time walking and less time ‘scrambling’ (moving the legs with no locomotion) on glossy types than on the normal-wax types. Adhesive force produced by C. plorabunda on plant surfaces was 20 to 200-fold greater on glossy types than on normal-wax types. All the glossy types provided an advantage to C. plorabunda over normal-wax types by increasing the force of attachment to the leaf suface by the larvae, which in turn increased time allocated to walking, leading to greater predation of P. xylostella larvae. Among glossy and normal wax types together, attachment force and time allocated to walking were significantly correlated with predation by C. plorabunda. Within glossy or normal-wax types, however, these correlations were not significant. Neither time allocated to walking, nor attachment to the leaf surface was a predictor of predation by C. plorabunda within glossy or normal-wax types. Although diverse mechanisms therefore contribute to differences in predation, the results show that reduction in waxbloom can substantially affect the mobility and effectiveness of this generalist predator.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1026416831201
Permalink
