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Sexual differences in electrophysiological and behavioral responses of Cydia molesta to peach and pear volatiles
Author(s) -
Lu PengFei,
Wang Rong,
Wang ChenZhu,
Luo YouQing,
Qiao HaiLi
Publication year - 2015
Publication title -
entomologia experimentalis et applicata
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.765
H-Index - 83
eISSN - 1570-7458
pISSN - 0013-8703
DOI - 10.1111/eea.12362
Subject(s) - pear , biology , electroantennography , orchard , horticulture , botany , pest analysis , fruit tree , shoot , pyrus communis , rosaceae
The oriental fruit moth ( OFM ), C ydia ( = G rapholita ) molesta ( B usck) ( L epidoptera: T ortricidae), is a serious invasive pest. The stone fruit peach, P runus persica (L.) B atsch, is its primary host, and the pome fruit pear, P yrus bretschneideri R ehder (both R osaceae), is its secondary host. Electrophysiological and behavioral responses of C . molesta females and males to peach shoot and pear fruit volatiles were compared in laboratory and field bioassays. Based on gas chromatography–electroantennographic detection ( GC – EAD ) activity, 13 compounds in the headspaces of peach and pear volatiles elicited female antennal responses. Of these, eight compounds also elicited male antennal response. Four lures were developed based on male and female EAD responses to pear and peach‐derived volatile organic compounds ( VOC s). More males than females were captured for all four lures during field trials, even in traps with lures that emitted VOC s based on female EAD responses. Lures based on female EAD responses to pear fruit VOC s consistently caught more females than lures based on male EAD responses to pear fruit VOC s in either peach or pear orchards. Peach shoot VOC lures based on female EAD responses did not attract more females than lures based on male EAD response to peach shoots. The two pear‐derived VOC lures were highly attractive to both sexes in peach orchards, whereas conversely, the two peach‐derived VOC lures showed stronger attraction in pear orchards. Seasonal population monitoring indicated both sexes made inter‐orchard flights during the late peach‐ and pear‐fruiting periods. A possible hypothesis that could explain different response profiles in females and males and seasonal migration for herbivores with multiple generations per year is discussed.